Method for producing a built camshaft

The invention claimed is: 1. A method for producing an assembled camshaft, comprising the steps of: providing a camshaft main body having a longitudinal axis, wherein the camshaft main body includes: a first axial section having a smooth cylindrical outer profile and an outer diameter d 1 , a second axial section disposed between the first axial section and a third axial section, the second axial section including a toothing extending in an axial direction, wherein the second axial section via the toothing defines a tip circle diameter d K and a root circle diameter d F , the third axial section having a smooth cylindrical outer profile and an outer diameter d 3 , wherein d 1 >d K and d F >d 3 , joining a drive wheel to a free end of the first axial section, thermally joining at least one receiving element to the first axial section in a predefined angular and axial position, the at least one receiving element having an opening for receiving the camshaft main body, wherein the at least one receiving element is arranged on the camshaft main body in a rotationally fixed and axially non-displaceable manner; pushing at least one sliding cam onto the second axial section in a predefined angular position, the at least one sliding cam arranged on the camshaft main body in a rotationally fixed and axially displaceable manner; and thermally joining at least one other receiving element to the third axial section in a predefined angular and axial position, the at least one other receiving element having an opening for receiving the camshaft main body. 2. The method according to claim 1 , wherein providing the camshaft main body further includes pushing the camshaft main body through a hub of the at least one sliding cam and a hub of the receiving elements and through at least one of a passage opening of a bearing frame and a passage opening of a cylinder head cover. 3. The method according to claim 1 , wherein joining the drive wheel to the camshaft main body includes fixing the drive wheel on the first axial section via welding to define at least one of a form fit connection and a shrink fit connection. 4. The method according to claim 3 , wherein welding includes at least one of laser welding and friction welding. 5. The method according to claim 1 , wherein the predefined angular position of at least one of the receiving elements is defined before or after the receiving elements are pushed onto the camshaft main body. 6. The method according to claim 1 , wherein the at least one receiving element includes at least one of a cam, a sensor wheel, a bearing ring, a rolling bearing and a gearwheel. 7. The method according to claim 1 , wherein providing the camshaft main body further includes forming a stepped transition between at least one of (i) the first axial section and the second axial section and (ii) the second axial section and the third axial section. 8. A method for producing an assembled camshaft, comprising the steps of: providing a camshaft main body having a longitudinal axis, the camshaft main body including: a first axial section having a smooth cylindrical outer profile and an outer diameter d 1 , a second axial section disposed between the first axial section and a third axial section, the second axial section including a toothing extending in an axial direction, wherein the second axial section via the toothing defines a tip circle diameter d K and a root circle diameter d F , the third axial section having a smooth cylindrical outer profile and an outer diameter d 3 , wherein d 1 <d F and d 3 <d F , thermally joining at least one receiving element to the first axial section in a predefined angular and axial position, the at least one receiving element having an opening for receiving the camshaft main body; pushing at least one sliding cam onto the second axial section in a predefined angular position; thermally joining at least one other receiving element to the third axial section in a predefined angular and axial position, the at least one other receiving element having an opening for receiving the camshaft main body; and joining a drive wheel to a free end of the first axial section. 9. The method according to claim 8 , wherein joining the drive wheel to the camshaft main body includes fixing the drive wheel on the first axial section via welding to define at least one of a form fit connection and a shrink fit connection. 10. The method according to claim 9 , wherein welding includes at least one of laser welding and friction welding. 11. The method according to claim 8 , wherein the predefined angular position of at least one of the receiving elements is defined before or after the receiving elements are pushed onto the camshaft main body. 12. The method according to claim 8 , wherein providing the camshaft main body further includes forming a stepped transition between at least one of (i) the first axial section and the second axial section and (ii) the second axial section and the third axial section. 13. The method according to claim 8 , wherein, after providing the camshaft main body, further including the step of pushing the camshaft main body through a hub of the at least one sliding cam and a hub of the receiving elements and through at least one of passage opening of a bearing frame and a passage opening of a cylinder head cover. 14. An assembled camshaft, comprising: a camshaft main body having a longitudinal axis and including: a first axial section having a smooth cylindrical outer profile and an outer diameter d 1 ; a second axial section disposed between the first axial section and a third axial section, the second axial section having an outer profile including a toothing extending in an axial direction, wherein the second axial section via the toothing defines a tip circle diameter d K and a root circle diameter d F ; the third axial section having a smooth cylindrical outer profile and an outer diameter d 3 ; a drive wheel coupled to a free end of the first axial section; at least one receiving element having an opening for receiving the camshaft main body, the at least one receiving element arranged rotationally and axially fixed on the camshaft main body, wherein the at least one receiving element is disposed on at least one of the first axial section and the third axial section; at least one sliding cam arranged rotationally fixed and axially displaceable on the second axial section; wherein the at least one receiving element is thermally joined to the camshaft main body and defines at least one of a form fit connection and a shrink fit connection; and wherein the camshaft main body is a stepped and hollow shaft. 15. The camshaft according to claim 14 , wherein the at least one receiving element includes at least one of a cam, a sensor wheel, a bearing ring, a rolling bearing and a gearwheel. 16. The camshaft according to claim 14 , wherein the at least one receiving element has a hub defining a friction-increasing structure. 17. The camshaft according to claim 14 , wherein the camshaft main body is stepped at a transition between at least one of (i) the first axial section and the second axial section and (ii) the second axial section and the third axial section. 18. The camshaft according to claim 14 , wherein the camshaft main body defines the following relationship: d 1 >d K and d F >d 3 . 19. The camshaft according to claim 14 , wherein the camshaft main body defines the following relationship: d 1 <d F and d 3 <d F .